CN117670324A - Charging system and method - Google Patents

Abstract

The application discloses a charging system and a charging method. The system is deployed on a shared service platform, and comprises: the inquiry module inquires a target charging item code corresponding to the target charging product; the association module is used for associating each charging item code with a reference rate and a differential rate to generate a rate condition group final state table, wherein the differential rate is charging information generated on the basis of the reference rate according to different differential dimensions, and the differential dimensions comprise the types and grades of charging products; one reference rate may correspond to zero or more different differential rates; the query module also queries a final state table of the rate condition group to obtain a target reference rate and a target differential rate; and the calculation module is used for calculating the difference amount of the target charging product according to the target reference rate, the target difference rate and the initial amount of the target charging product and determining the charge to be received of the target charging product according to the difference amount. According to the embodiment of the application, the online transaction link can be reduced, the time consumption of transaction is reduced, and the controllability is high.

Description

Charging system and method

Technical Field

The application belongs to the technical field of big data, and particularly relates to a charging system and a charging method.

Background

In the related art, in the scenes of acquiring the transaction fee, the work cost fee, the annual fee and the like of the credit card, the online calling sharing service is required, the sharing service is called out, the customer settlement component acquires corresponding data through the computer engine service, and the amount to be collected is returned through complex calculation.

However, since the transaction links for online acquiring various charging items in the related technology are long, the uncertainty factor is high, the corresponding response time is long, and the switching, upgrading, optimizing and the like of any other party have great influence on the stability of the online system.

Disclosure of Invention

The embodiment of the application provides a charging system and a charging method, which can reduce online transaction links, reduce transaction time consumption and have high controllability.

In a first aspect, an embodiment of the present application provides a charging system, where the charging system is deployed on a shared service platform, and the charging system includes: the inquiring module is used for inquiring the target charging item codes corresponding to the target charging products from a pre-established charging item code list; the association module is used for associating each charging item code with a reference rate and associating each charging item code with a differential rate to generate a rate condition group final state table, wherein the differential rate is charging information generated according to different differential dimensions on the basis of the reference rate, and the differential dimensions comprise the types and grades of charging products; one reference rate may correspond to zero or more different differential rates; the query module is also used for querying a rate condition set final state table according to the target charging item code to obtain a target reference rate and a target differential rate corresponding to the target charging product; the calculation module is used for calculating the reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product, calculating the difference amount of the target charging product according to the target difference rate and the reference amount, and determining the charge to be collected of the target charging product according to the difference amount.

According to an embodiment of the first aspect of the present application, the charging system further comprises: and the coding module is used for coding the plurality of charging products and generating a charging item coding list.

According to any of the foregoing embodiments of the first aspect of the present application, the reference tariff includes a reference layering criteria, the reference layering criteria including an amount class and a media class; the standard rate of the amount class is provided with a first preset number of first standard intervals and a charging amount according to the amount, and the standard charging mode of each first standard interval is different; the medium standard rate is provided with a second preset number of second standard intervals according to the number of the corresponding charged products, and the standard charging modes of each second standard interval are different; the calculation module comprises: the judging unit is used for judging whether the standard layering standard of the target standard rate belongs to the amount class or the medium class; the comparison unit is used for comparing the charging amount with the initial amount of the target charging product under the condition that the judgment result of the judgment unit is the amount type, and determining that the charge of the target charging product is zero if the charging amount is larger than the initial amount; if the initial charge amount is smaller than the initial charge amount, the judging unit judges a first reference section in which the initial charge amount is located, and calculates the reference charge amount of the target charge product according to the charging mode of the first reference section and the initial charge amount.

According to any one of the foregoing embodiments of the first aspect of the present application, the determining unit is further configured to determine a second reference interval in which the number of target charging products is located if the determination result is a medium class, and calculate the reference amount of the target charging products according to the charging mode of the second reference interval, the number of target charging products, and the unit price.

According to any of the foregoing embodiments of the first aspect of the present application, the reference rate includes a reference rate parameter, the reference rate parameter including a reference minimum amount and a reference maximum amount; the judging unit is also used for judging whether the target reference rate has a corresponding target differential rate or not; if the judgment result is yes, the calculation module is also used for calculating the difference amount of the target charging product according to the reference amount and the target difference rate; and if the judgment result is negative, the comparison unit is also used for comparing the reference amount, the reference minimum amount and the reference maximum amount to determine the charge to be received of the target charging product.

According to any of the foregoing embodiments of the first aspect of the present application, the comparing unit is specifically configured to: when the reference amount is smaller than the reference minimum amount, determining the reference minimum amount as the charge to be received of the target charging product; when the reference amount is larger than the reference maximum amount, determining the reference maximum amount as the charge to be received of the target charging product; and when the reference amount is larger than the reference minimum amount and smaller than the reference maximum amount, determining the reference amount as the charge to be received of the target charging product.

According to any of the foregoing embodiments of the first aspect of the present application, the computing module is specifically configured to: under the condition that one item of standard rate corresponds to a plurality of items of standard differential rates, respectively calculating a first differential amount corresponding to each target differential rate according to the standard amount and a plurality of target differential rates; the comparing unit is further used for comparing the plurality of first difference amounts and determining the smallest first difference amount as the difference amount of the target charging product.

According to any of the foregoing embodiments of the first aspect of the present application, the differential rate includes a differential rate parameter, the differential rate parameter including a differential minimum amount and a differential maximum amount; the differential rate is provided with a third preset number of differential intervals according to the differential dimension, and the differential charging modes of each differential interval are different; the judging unit is also used for judging a difference interval where the target charging product is located and calculating the charge taking expense of the target charging product according to a charging mode of the difference interval, a reference amount, a minimum difference amount and a maximum difference amount.

According to any of the foregoing embodiments of the first aspect of the present application, the comparing unit is specifically configured to: when the difference amount is smaller than the difference minimum amount, determining the difference minimum amount as the charge to be received of the target charging product; when the difference amount is larger than the difference maximum amount, determining the difference maximum amount as the charge to be received of the target charging product; and when the difference amount is larger than the difference minimum amount and smaller than the difference maximum amount, determining the difference amount as the charge to be received of the target charging product.

In a second aspect, an embodiment of the present application provides a charging method, which is applied to the charging system as in the first aspect, where the charging method includes: inquiring a target charging item code corresponding to a target charging product from a pre-established charging item code list; inquiring a pre-established rate condition set final state table according to the target charging item code to obtain a target reference rate and a target differential rate corresponding to the target charging product; calculating the reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product; calculating the difference amount of the target charging product according to the target difference rate and the reference amount; and determining the charge to be received of the target charged product according to the difference amount.

According to the charging system, the charging system can be arranged on the shared service platform, and the transaction link is reduced through the calculation module of the charging system. On the one hand, the amount to be received can be returned only by calling the sharing service platform online, the client settlement component obtains corresponding data through the calculation engine service without calling the client settlement service through the sharing service platform, and the amount to be received is returned through complex calculation, so that the transaction link is reduced. Due to the reduction of transaction links, transaction time consumption is reduced, and transaction stability is improved. On the other hand, since the association module associates each charge item code with a reference rate and associates each charge item code with a differential rate, the charge product may generate a reference amount according to the reference rate and, in case there is a differential rate, may generate a differential amount according to the reference amount and the differential rate. The charging mechanism of the charging system is more complete.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described, and it is possible for a person skilled in the art to obtain other drawings according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a charging system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of another charging system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of still another charging system according to an embodiment of the present application;

fig. 4 is a schematic flow chart of a charging method according to an embodiment of the present application.

Detailed Description

Features and exemplary embodiments of various aspects of the present application are described in detail below to make the objects, technical solutions and advantages of the present application more apparent, and to further describe the present application in conjunction with the accompanying drawings and the detailed embodiments. It should be understood that the specific embodiments described herein are intended to be illustrative of the application and are not intended to be limiting. It will be apparent to one skilled in the art that the present application may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present application by showing examples of the present application.

The data acquisition, storage, use, processing and the like in the technical scheme meet the relevant regulations of national laws and regulations.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

It should be understood that the term "and/or" as used herein is merely one relationship describing the association of the associated objects, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Accordingly, this application is intended to cover such modifications and variations of this application as fall within the scope of the appended claims (the claims) and their equivalents. The embodiments provided in the examples of the present application may be combined with each other without contradiction.

In order to solve the technical problems in the related art, the present application proposes a charging system and a charging method, and a charging system in an embodiment of the present application is first described below.

Fig. 1 is a schematic structural diagram of a charging system provided in an embodiment of the present application, as shown in fig. 1, a charging system 100 is disposed on a shared service platform, and the charging system 100 may include: a query module 110, an association module 120, and a computation module 130.

The query module 110 is configured to query a target charging item code corresponding to a target charging product from a pre-established charging item code list, and query a final state table of a pre-established rate condition set according to the target charging item code, to obtain a target reference rate and a target differential rate corresponding to the target charging product.

It should be appreciated that in some embodiments, the charging system 100 is applied to a scenario where a credit card charges annual and financial fees. The charging item code list refers to a table that charging products are associated with charging item codes, and each charging product corresponds to one charging item code. The rate condition set final state table refers to a table of charge item codes associated with reference rates and differential rates, each charge item code corresponding to one reference rate, each reference rate corresponding to zero or more differential rates. The reference rate may be understood as a charging standard of a charging item, in which charging calculation and charging modes are set, and the differential rate may be understood as charging information generated according to different differential dimensions on the basis of the reference rate, that is, the reference amount calculated for the reference rate is further calculated for charging. The dimension of the difference may include the type and grade of the charged product.

The function of the query module 110 may be understood that, after the target charging product is input into the charging system 100, the query module 110 queries the charging item code list according to the charging item code, the transaction currency, the institution application scope, the query date, the charging product number and other information, if not, abnormal information is returned, which indicates that the target charging product is not configured with a corresponding charging mode; and if the target charging item code is inquired, obtaining the target charging item code of the target charging product. And then proceeds to query the base rate and the differential rate of the target charge product by the query module 110 based on the target charge item code.

An association module 120 for associating each charge item code with a reference rate and each charge item code with a differential rate, generating a rate condition set terminal state table.

The rate condition group refers to a set of rate condition parameters with the same parameter configuration of the reference rate and the differential rate, the association module 120 may associate the charged product to the rate condition group, and there are several assembly operations such as adding, changing, deleting, and the like in the association module 120.

In some embodiments, the reference rate is divided by currency, channel, etc. dimensions, and a charging item may define a plurality of different reference rates according to the organization, channel, currency, etc. The reference rate can only be validated after the new addition, review, release and expiration date. According to whether the reference rate is effective or not, the system divides the reference rate into an unpublished reference rate and a published reference rate, and the corresponding reference rates are respectively placed under the labels of unpublished and published. The operation of the unpublished base tariff includes: query, add, modify, delete, browse. The operation of the published reference rate includes: query, modification, expiration, revocation, browsing.

In some embodiments, the differential rate may perform the following management functions: the differential rate interface includes unpublished queries, issued queries, and queries to be rechecked. The unpublished query is for a new addition, modification, deletion, query, browse, run-out, or revocation of a charged item. The issued query is used for validated billing item queries, modifications, display periods or revocation, browsing. The query to be rechecked is used for rechecking the different rates to be effective, and the query can be issued after the rechecking is passed.

The above two embodiments can be understood that the terminal state table of the rate condition group can be subjected to parameterization management, specifically, the terminal state table of the rate condition group comprises a temporary state and an operating state, temporary state data can be input, modified, deleted, rechecked, released and the like at any time, and the temporary state data can be converted into the operating state after released and the operating state data belongs to circulation data in the market, and the two forms enable charging to be more careful and flexible.

In some embodiments, the reference rate is the basis of charging for the charging item, the differential rate is charging information generated according to different differential dimensions on the basis of the reference rate, and if the reference rate fails, the corresponding differential rate also fails automatically. The dimension of the difference includes the type and grade of the charged product; one reference rate may correspond to zero or more different differential rates.

In some embodiments, the reference rate may include a reference layering criteria including an amount class and a media class. The standard rate of the amount class is provided with a first preset number of first standard intervals and a charging amount according to the amount, and the standard charging modes of the first standard intervals are different. The reference rate of the medium class is provided with a second reference interval with a second preset number according to the number of the corresponding charged products, and the reference charging modes of each second reference interval are different.

It is understood that all the fee-charged products are divided into two categories, one category being the amount category and one category being the medium category. The standard charging mode of the money type charging product is divided into a plurality of first standard intervals according to money, and the charging modes of the first standard intervals are different. The basic charging mode of the charging products of the medium class is divided into a plurality of second basic intervals according to the number of the charging products, and the charging modes of the second basic intervals are different.

Illustratively, a reference rate may be made up of one or more billing means, as shown in Table 1:

table 1: charging mode of reference rate

Charging mode of reference rate	Reference amount of money
		Fixed amount of money	Reference charge amount
Fixed ratio of	Charging base number value reference charging proportion
		Fixed amount + fixed ratio	Reference charging amount + charging base number base charging proportion
Monovalent unit price	Basic value of charging reference unit price

As shown in table 1, 4 charging modes of the reference rate are provided, taking the money type product as an example, the first mode is to charge according to a fixed amount, the fixed amount is set as a reference charging amount, the reference charging amount is equal to the reference amount, and for example, if the initial charging amount of the annual fee of the credit card is 1000 yuan, the reference charging amount is set as a fixed amount 950 yuan, and no matter the initial charging amount of the annual fee of the credit card is, the reference charging amount is 950 yuan. The second way is to charge according to a fixed proportion, and with continued reference to the above example, if the charging base value is set to 1000 yuan for the initial charging amount, the reference charging proportion is 90%, and the reference amount is 900 yuan. The third way is to charge according to a fixed amount + fixed ratio, and by way of example, the reference charging amount is set to 500 yuan, the charging base value is set to 500 yuan, the reference charging ratio is set to 90%, and the reference charging amount is set to 950 yuan. And fourthly, charging according to unit price, setting the standard unit price as 900 yuan, and setting the charging basic value as 1, wherein the standard amount is 900 yuan.

With continued reference to table 1, if the monetary type product is divided into 4 sections according to the monetary size, one section below 500 yuan, one section between 500 yuan and 1000 yuan, one section between 1000 yuan and 1500 yuan, and one section above 1500 yuan. Each reference interval corresponds to a charging mode, which may be selected from table 1 or set by itself. It should be noted that the charging methods in this example are all full sets, i.e. all amounts use one charging method, and not some amounts use one charging method. If the target charging product is in the category of money and the initial money is 900 yuan, the target charging product is in the interval of 500 yuan to 1000 yuan, and the charging is carried out by adopting a charging mode of a reference interval of 500 yuan to 1000 yuan.

Except for different interval division modes and interval corresponding charging modes, the charging modes of the medium type products are consistent with the charging modes of the amount type products, and the internal charging mechanism is not described in detail herein.

The calculating module 130 is configured to calculate a reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product, calculate a difference amount of the target charging product according to the target difference rate and the reference amount, and determine a charge to be collected of the target charging product according to the difference amount.

In some embodiments, when the query module 110 queries only the target reference rate for the target charging product and does not query the target differential rate, indicating that the target reference rate for the target charging product corresponds to zero target differential rates, the calculation module 130 need only determine the reference amount for the target charging product based on the target reference rate and the initial amount, and determine the charge to be collected for the target charging product based on the reference amount. When the query module 110 queries a target reference rate and a target differential rate, the calculation module 130 calculates a reference amount according to the target reference rate and the initial amount, calculates a differential amount according to the reference amount and the corresponding target differential rate, and finally determines the charge to be received of the target charging product according to the differential amount. When the query module 110 queries a target reference rate and a plurality of target differential rates, the calculation module 130 calculates a reference amount according to the target reference rate and the initial amount, calculates a plurality of differential amounts according to the target differential rates and the reference amount, compares the differential amounts, and takes the differential amount with the smallest value as a final differential amount, and determines the charge to be received of the target charging product according to the final differential amount.

According to the charging system, the charging system can be arranged on the shared service platform, and the transaction link is reduced through the calculation module of the charging system. On the one hand, the amount to be received can be returned only by calling the sharing service platform online, the client settlement component obtains corresponding data through the calculation engine service without calling the client settlement service through the sharing service platform, and the amount to be received is returned through complex calculation, so that the transaction link is reduced. Due to the reduction of transaction links, transaction time consumption is reduced, and transaction stability is improved. On the other hand, since the association module associates each charge item code with a reference rate and associates each charge item code with a differential rate, the charge product may generate a reference amount according to the reference rate and, in case there is a differential rate, may generate a differential amount according to the reference amount and the differential rate. The charging mechanism of the charging system is more complete.

Fig. 2 is a schematic structural diagram of another charging system provided in an embodiment of the present application, as shown in fig. 2, the charging system 100 may further include: the encoding module 210.

The encoding module 210 is configured to encode a plurality of fee-based products to generate a fee-based item encoding list.

In some embodiments, the encoding module 210 may maintain the basic material of the charging item, which may include the charging item encoding, the validation date and expiration date, and the like. The charging items take the charging item codes as indexes, correspond to the charging products and services, and realize the mapping with the charging products through a charging item code list.

Fig. 3 is a schematic structural diagram of still another charging system provided in an embodiment of the present application, as shown in fig. 3, the calculating module 130 may include: a judging unit 131 and a comparing unit 132.

A judging unit 131 for judging whether the reference layering criteria of the target reference rate belongs to the monetary class or the medium class.

And the comparing unit 132 is configured to compare the initial amount of the target charging product with the initial amount of the charging product if the determination result of the determining unit is that the amount of the charging product is equal to the amount, and determine that the chargeable fee of the target charging product is zero if the charging amount is greater than the initial amount.

If the initial charge amount is smaller than the initial charge amount, the judging unit judges a first reference section in which the initial charge amount is located, and calculates the reference charge amount of the target charge product according to the charging mode of the first reference section and the initial charge amount.

In a specific implementation, after the query module 110 queries the target reference rate of the target charging product, the determining unit 131 determines whether the target charging product belongs to an amount product or a medium product according to the target reference rate.

In some embodiments, the base rate for the monetary type product is also provided with a billing amount, such as a 20-ary setting for the billing amount. In the case that the judgment result of the judgment unit 131 is the money type product, the comparison unit 132 compares the initial amount of the target charged product with the charging amount, and if the initial amount is less than 20 yuan of the charging amount, charging is performed for 0 yuan, i.e., no charging is performed. If the initial amount is greater than the initial amount, the determining module 131 further determines a first reference interval in which the initial amount is located according to the initial amount sent, and the charging modes of different reference intervals are different, and after the determination result is obtained, the reference amount of the target charging product is calculated according to the charging mode of the interval and the initial amount, and the specific calculation process is carried-in value calculation, which is described in the explanation of table 1 above, and is not repeated here.

Similarly, the determining unit 131 determines a second reference interval in which the number of target charging products is located if the determination result is the medium type, and calculates the reference amount of the target charging products according to the charging method of the second reference interval, the number of target charging products, and the unit price.

In some embodiments, the reference rate may further include a reference rate parameter including a reference minimum amount and a reference maximum amount; the judging unit 131 is further configured to judge whether the target reference rate has a corresponding target differential rate.

In the case that the determination result is yes, the calculating module 130 is further configured to calculate a difference amount of the target charging product according to the reference amount and the target difference rate. I.e. in case it is determined that there is a corresponding one or more target differential rates for the target base rate, it is necessary to calculate the differential amount of the target charged product. Under the condition of corresponding to a piece of marked differential rate, the differential rate is calculated only after the reference amount is calculated. The case of corresponding multi-entry differential rates will be described below.

In the case that the determination result is no, the comparing unit 132 is further configured to compare the reference amount, the reference minimum amount, and the reference maximum amount, and determine the charge to be received for the target toll product. That is, in the case that it is judged that the target reference rate does not have the target differential rate corresponding thereto, the charge to be received for the target charged product can be determined only according to the reference amount and the reference minimum amount and the reference maximum amount.

The comparison unit 132 specifically functions to: when the reference amount is smaller than the reference minimum amount, determining the reference minimum amount as the charge to be received of the target charging product; when the reference amount is larger than the reference maximum amount, determining the reference maximum amount as the charge to be received of the target charging product; and when the reference amount is larger than the reference minimum amount and smaller than the reference maximum amount, determining the reference amount as the charge to be received of the target charging product. By changing the reference minimum amount and the reference maximum amount, the fee to be collected is planned in a reasonable interval and cannot be too high or too low.

In some embodiments, the computing module 130 is specifically configured to: under the condition that one item of standard rate corresponds to a plurality of items of standard differential rates, respectively calculating a first differential amount corresponding to each target differential rate according to the standard amount and a plurality of target differential rates; the comparing unit 132 is further configured to compare the plurality of first differential amounts, and determine the smallest first differential amount as the differential amount of the target charging product.

A differential rate may be formed from one or more billing means based on the same principle as the reference rate.

Illustratively, as shown in table 2:

table 2: charging mode of different rates

Charging mode of different rates	Difference amount of money
		Fixed amount of money	Difference adjustment amount
Fixed ratio of	Charging base value differential adjustment ratio
		Fixed amount + fixed ratio	Differential adjustment amount + charging base value differential adjustment ratio
Monovalent unit price	Charging base value unit price

Table 2 provides 4 charging modes of the differential rate, such as 900 yuan for the reference amount, and the first mode is charging according to a fixed amount, wherein the fixed amount is set as the differential adjustment amount, and the differential adjustment amount can be set as 30 yuan minus, and then the differential amount is 870 yuan. The second way is to charge according to a fixed proportion, and with continued reference to the above example, if the charging basic value is set to 900 yuan, the difference adjustment proportion is 90%, and the difference amount is 810 yuan. The third way is to charge according to the fixed amount and the fixed proportion, and by way of example, the difference adjustment amount is set to be minus 30 yuan, the difference adjustment proportion is set to be 90%, the charging base value is set to be 900 yuan, and then the difference amount=900×90% -30=780 yuan. The fourth way is to charge according to unit price.

In specific implementation, a third preset number of difference intervals may be set according to the difference dimension information (difference dimension type, difference dimension value and difference dimension currency), and each difference interval has different charging modes, which may be selected from table 2 or set separately. After the charging mode is selected, calculating the difference amount according to the reference amount and the charging mode, and when a plurality of target difference rates exist, calculating the difference amount corresponding to each target difference rate, and taking the most preferential difference amount as the difference amount of the final target charging product.

In some embodiments, the differential rate may also include a differential rate parameter including a differential minimum amount and a differential maximum amount; the differential rate is provided with a third preset number of differential intervals according to the differential dimension, and the differential charging modes of each differential interval are different; the judging unit 121 is further configured to judge a difference interval in which the target charging product is located, and calculate the receivable fee of the target charging product according to the charging mode, the reference amount, the minimum difference amount, and the maximum difference amount of the difference interval.

It is understood that the difference amount of the target charging product can be determined according to the charging manner of the difference interval and the reference amount, and the chargeable fee of the target charging product can be obtained by comparing the difference minimum amount and the difference maximum amount by the comparing unit 132.

The comparison unit 132 specifically functions to: when the difference amount is smaller than the difference minimum amount, determining the difference minimum amount as the charge to be received of the target charging product; when the difference amount is larger than the difference maximum amount, determining the difference maximum amount as the charge to be received of the target charging product; and when the difference amount is larger than the difference minimum amount and smaller than the difference maximum amount, determining the difference amount as the charge to be received of the target charging product. Therefore, the chargeable fee of the target charged product can be ensured to be in a reasonable interval, and the interval is the interval of the minimum difference amount and the maximum difference amount.

In some embodiments, the charging system 100 further provides a charging management module for providing the logging transactions of each module, the transaction records the temporary table of the corresponding module, and for normal logging to be added to the temporary table, the processing status is set to "to recheck". And providing the rechecking transaction of each module, and only rechecking the recorded data in the state to be rechecked, wherein the processing state is set as passing rechecking rejection. Providing release transaction of each module, inquiring temporary table data, allowing release aiming at the data passing through rechecking, updating the temporary table data processing state into released, and newly adding released data in a final state table. Providing maintenance transaction of each module, modifying unpublished data, updating temporary table data, setting a processing state as 'to-be-rechecked', modifying published data, updating the temporary table data, setting the processing state as 'to-be-rechecked', and synchronously updating final table data after the subsequent auditing is passed. And providing a deleting transaction of each module, inquiring the final state table data for the released data without allowing deletion, deleting the corresponding data in the temporary table if the final state table data does not exist, and throwing an abnormal prompt if the final state table data does not exist. And providing inquiry transaction of each module, inquiring unpublished, to-be-audited and published data, inquiring historical data (spent), and inquiring data with the spent date smaller than the current date in the temporary table.

The present application also provides a charging method based on the same technical concept as the charging system provided in the above embodiment. See the examples below.

Fig. 4 is a flow chart of a charging method provided in an embodiment of the present application, as shown in fig. 4, the charging method 400 is applied to any charging system provided in an embodiment of the present application, and the method may include: s401 to S406.

S401, inquiring a target charging item code corresponding to a target charging product from a pre-established charging item code list.

S402, associating each charge item code with a reference rate, and associating each charge item code with a differential rate, generating the rate condition set final state table;

s403, according to the target charging item code, inquiring the final state table of the rate condition group to obtain the target reference rate and the target differential rate corresponding to the target charging product.

S404, calculating the reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product.

S405, calculating the difference amount of the target charging product according to the target difference rate and the reference amount.

S406, determining the charge to be collected of the target charged product according to the difference amount.

In some embodiments, there is no target differential rate, and the charge to be received for the target charged product may be determined directly from the reference amount.

According to the charging method, the charging system can be arranged on the shared service platform, and the transaction link is reduced through the calculation module of the charging system. The method and the system can return the amount to be received only by calling the sharing service platform online, and the client settlement assembly obtains corresponding data through the calculation engine service without calling the client settlement service through the sharing service platform, and returns the amount to be received through complex calculation, so that the transaction link is reduced. Due to the reduction of transaction links, transaction time consumption is reduced, and transaction stability is improved.

It should be clear that the present application is not limited to the particular arrangements and processes described above and illustrated in the drawings. For the sake of brevity, a detailed description of known methods is omitted here. In the above embodiments, several specific steps are described and shown as examples. However, the method processes of the present application are not limited to the specific steps described and illustrated, and those skilled in the art can make various changes, modifications, and additions, or change the order between steps, after appreciating the spirit of the present application.

It should also be noted that the exemplary embodiments mentioned in this application describe some methods or systems based on a series of steps or devices. However, the present application is not limited to the order of the above-described steps, that is, the steps may be performed in the order mentioned in the embodiments, may be different from the order in the embodiments, or several steps may be performed simultaneously.

In the foregoing, only the specific embodiments of the present application are described, and it will be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the systems, modules and units described above may refer to the corresponding processes in the foregoing method embodiments, which are not repeated herein. It should be understood that the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the present application, which are intended to be included in the scope of the present application.

Claims (10)

1. A charging system, deployed on a shared services platform, the system comprising:

the inquiring module is used for inquiring the target charging item codes corresponding to the target charging products from a pre-established charging item code list;

the association module is used for associating each charging item code with a reference rate and associating each charging item code with a different rate to generate a rate condition group final state table, wherein the different rates are generated according to different dimensions on the basis of the reference rate, and the different dimensions comprise the types and grades of charging products; one of the reference rates may correspond to zero or more different of the differential rates;

the query module is also used for querying the final state table of the rate condition group according to the target charging item code to obtain a target reference rate and a target differential rate corresponding to the target charging product;

the calculation module is used for calculating the reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product, calculating the difference amount of the target charging product according to the target difference rate and the reference amount, and determining the charge to be collected of the target charging product according to the difference amount.

2. The charging system of claim 1, wherein the system further comprises:

and the encoding module is used for encoding a plurality of charging products and generating the charging item encoding list.

3. The charging system of claim 1, wherein the reference tariff comprises a reference stratification criteria, the reference stratification criteria comprising a monetary class and a media class;

the standard rate of the amount class is provided with a first standard interval with a first preset quantity and a charging amount according to the amount, and the standard charging mode of each first standard interval is different;

the reference rate of the medium class is provided with a second reference interval with a second preset quantity according to the quantity of the corresponding charged products, and the reference charging modes of each second reference interval are different;

the computing module includes:

the judging unit is used for judging whether the standard layering standard of the target standard rate belongs to the sum class or the medium class;

the comparison unit is used for comparing the charge amount with the initial amount of the target charging product under the condition that the judgment result of the judgment unit is the amount type, and determining that the charge to be collected of the target charging product is zero if the charge amount is larger than the initial amount;

and if the charging amount is smaller than the initial amount, the judging unit judges a first reference section in which the initial amount is positioned, and calculates the reference amount of the target charging product according to the charging mode of the first reference section and the initial amount.

4. A charging system according to claim 3, wherein the judging unit is further configured to judge a second reference section in which the number of the target charging products is located, and calculate a reference amount of the target charging products according to a charging manner of the second reference section, the number of the target charging products, and a unit price, in a case where the judging result is a medium class.

5. A charging system according to claim 3, wherein the reference rate comprises a reference rate parameter, the reference rate parameter comprising a reference minimum amount and a reference maximum amount; the judging unit is further used for judging whether the target reference rate has the corresponding target differential rate or not;

if the judgment result is yes, the calculation module is further used for calculating the difference amount of the target charging product according to the reference amount and the target difference rate;

and if the judgment result is negative, the comparison unit is further used for comparing the reference amount, the reference minimum amount and the reference maximum amount to determine the charge to be received of the target charging product.

6. The charging system according to claim 5, wherein the comparing unit is specifically configured to:

when the reference amount is smaller than the reference minimum amount, determining the reference minimum amount as the charge to be received of the target charging product;

when the reference amount is larger than the reference maximum amount, determining the reference maximum amount as the charge to be received of the target charging product;

and when the reference amount is larger than the reference minimum amount and smaller than the reference maximum amount, determining the reference amount as the receivable fee of the target charging product.

7. The charging system according to claim 5, wherein the calculation module is specifically configured to:

under the condition that one target basic rate corresponds to a plurality of target differential rates, respectively calculating a first differential amount corresponding to each target differential rate according to the basic amount and the target differential rates;

the comparing unit is further used for comparing the plurality of first difference amounts and determining the smallest first difference amount as the difference amount of the target charging product.

8. The charging system according to claim 5, wherein,

the differential rate includes a differential rate parameter including a differential minimum amount and a differential maximum amount;

the differential rate is provided with a third preset number of differential intervals according to the differential dimension, and the differential charging modes of each differential interval are different;

the judging unit is further used for judging a difference interval where the target charging product is located, and calculating the charge to be collected of the target charging product according to a charging mode of the difference interval, the reference amount, the minimum difference amount and the maximum difference amount.

9. The charging system according to claim 8, wherein the comparing unit is specifically configured to:

when the difference amount is smaller than the difference minimum amount, determining that the difference minimum amount is the charge to be received of the target charging product;

when the difference amount is larger than the difference maximum amount, determining the difference maximum amount as the charge to be received of the target charging product;

and when the difference amount is larger than the difference minimum amount and smaller than the difference maximum amount, determining the difference amount as the receivable fee of the target charging product.

10. A charging method applied to a charging system according to any one of claims 1-9, the method comprising:

inquiring a target charging item code corresponding to a target charging product from a pre-established charging item code list;

associating each charge item code with a reference rate, and associating each charge item code with a differential rate, which is based on the reference rate and according to different differential dimensions, the differential dimensions including the type and grade of the charge product, to generate the final state table of the rate condition group; one of the reference rates may correspond to zero or more different of the differential rates;

inquiring the final state table of the rate condition group according to the target charging item code to obtain a target reference rate and a target differential rate corresponding to the target charging product;

calculating the reference amount of the target charging product according to the target reference rate and the initial amount of the target charging product;

calculating the difference amount of the target charging product according to the target difference rate and the reference amount;

and determining the charge to be received of the target charging product according to the difference amount.